SN65HVD230D Introduction
The SN65HVD230D is a CAN transceiver that adheres to the ISO 11898-2 High-Speed CAN Physical Layer standard. It supports data rates up to 1 Mbps and is engineered to work seamlessly with 3.3V microprocessors, microcontrollers, and digital signal processors equipped with CAN controllers, or similar protocol controller devices. This transceiver is designed to enhance the robustness of both the device and the CAN network through various protection features, ensuring reliable operation in applications that require compliance with the ISO 11898 standard for CAN serial communication.
SN65HVD230D Pinout
D: CAN data input/output.
GND: Ground.
Vcc: Power supply (3.3V).
R: Receive data output.
Vref: Voltage reference.
CANL: CAN bus low line.
CANH: CAN bus high line.
RS: Recessive/Short detection.
SN65HVD230D Symbol
SN65HVD230D Footprint
SN65HVD230D 3D Model
SN65HVD230D Schematic Diagram
SN65HVD230D Typical Application Diagrams
SN65HVD230D Specification
Specification | Value |
Type | CAN Transceiver |
Protocol | CANbus |
Operating Voltage (Vcc) | 3.3V |
Data Rate | Up to 1 Mbps |
Temperature Range | -40°C ~ 85°C |
Output Current (CANH/CANL) | ±65 mA |
Bus Fault Protection | ±58V (for CANH and CANL) |
Package Type | SOIC-8 |
Voltage - Supply | 3V ~ 3.6V |
Receiver Hysteresis | 100 mV |
Propagation Delay | 50 ns |
Data Rate | 1Mbps |
Standby Current | 1 µA |
Package | 8-SOIC |
SN65HVD230D Features
Operates with a single 3.3 V Supply
Compatible With ISO 11898-2 Standard
Low Power Replacement for the PCA82C250 Footprint
Bus Pin ESD Protection Exceeds ±16 kV HBM
High Input Impedance Allows for Up to 120 Nodes on a Bus
Adjustable Driver Transition Times for Improved Emissions Performance – SN65HVD230 and SN65HVD231
SN65HVD230: Low Current Standby Mode – 370 μA Typical
SN65HVD231: Ultra Low Current Sleep Mode – 40 nA Typical
Designed for Data Rates(1) up to 1 Mbps
Thermal Shutdown Protection
Open Circuit Fail-Safe Design
Glitch Free Power Up and Power Down Protection for Hot Plugging Applications
SN65HVD230D Applications
Industrial Automation, Control, Sensors and Drive Systems
Motor and Robotic Control
Building and Climate Control (HVAC)
Telecom and Basestation Control and Status
CAN Bus Standards Such as CANopen, DeviceNet, and CAN Kingdom
SN65HVD230D Package
SN65HVD230D Alternatives
The SN65HVD230D has several alternatives within the Texas Instruments transceiver lineup, including the SN65HVD230DR, SN65HVD72DR, SN65HVD78DR, and SN65HVD75DR. These devices share similar specifications, such as compatibility with ISO 11898-2 CAN standards and support for data rates up to 1 Mbps.
How to Use SN65HVD230D?
First, connect the power supply: Ensure that the Vcc pin (pin 3) is connected to a 3.3V power source, and the GND pin (pin 2) is connected to the ground.
Next, set the enable or standby mode: Connect the RS pin (pin 8) to control the mode of operation. To enable high-speed mode, connect RS to ground. If you need low-power standby mode, apply a high signal to RS.
Then, link the CAN bus lines: Connect the CANH (pin 7) and CANL (pin 6) to the corresponding CAN bus lines. These are the high and low differential lines that enable communication over the CAN network.
Afterward, manage the reference voltage: The Vref (pin 5) provides a reference voltage (typically 0.5 * Vcc) and can be used if required for additional circuitry, though it is optional in many designs.
Finally, connect the digital interface: The R pin (pin 4) and D pin (pin 1) are used to receive and transmit data. Connect the R pin to the microcontroller's RX input and the D pin to the microcontroller's TX output.
FAQs
What voltage does SN65HVD230D operate at?
The SN65HVD230D operates at a supply voltage of 3.3V, making it suitable for use with low-voltage microcontrollers and DSPs.
Can SN65HVD230D work in low-power mode?
Yes, the RS pin can be used to enable standby or low-power mode. Applying a high signal to the RS pin puts the device in low-power standby mode.
What is the SN65HVD230D used for?
The SN65HVD230D is a CAN (Controller Area Network) transceiver designed for high-speed communication (up to 1 Mbps) in applications that use the CAN protocol, particularly in automotive and industrial systems.